Calcium/calmodulin-dependent protein kinase I inhibits neuronal nitric-oxide synthase activity through serine 741 phosphorylation

We demonstrate here that neuronal nitric-oxide synthase (nNOS) is phosphorylated and inhibited by a constitutively active form of Ca²⁺/calmodulin (CaM)-dependent protein kinase I (CaM-K I1-293). Substitution of Ser⁷⁴¹ to Ala in nNOS blocked the phosphorylation and the inhibitory effect. Mimicking phosphorylation at Ser⁷⁴¹ by Ser to Asp mutation resulted in decreased binding of and activation by CaM, since the mutation was within the CaM-binding domain. CaM-K I1-293 gave phosphorylation of nNOS at Ser⁷⁴¹ in transfected cells, resulting in 60–70% inhibition of nNOS activity. Wild-type CaM-K I also did phosphorylate nNOS at Ser⁷⁴¹ in transfected cells, but either CaM-K II or CaM-K IV did not. These results raise the possibility of a novel cross-talk between nNOS and CaM-K I through the phosphorylation of Ser⁷⁴¹ on nNOS.